/**
 * (c) 2014 Highsoft AS
 * Authors: Jon Arild Nygard / Oystein Moseng
 *
 * License: www.highcharts.com/license
 */
'use strict';
import H from '../parts/Globals.js';
import mixinTreeSeries from '../mixins/tree-series.js';
import '../parts/Utilities.js';
import '../parts/Options.js';
import '../parts/Series.js';
import '../parts/Color.js';

var seriesType = H.seriesType,
    seriesTypes = H.seriesTypes,
    map = H.map,
    merge = H.merge,
    extend = H.extend,
    noop = H.noop,
    each = H.each,
    getColor = mixinTreeSeries.getColor,
    getLevelOptions = mixinTreeSeries.getLevelOptions,
    grep = H.grep,
    isArray = H.isArray,
    isBoolean = function (x) {
        return typeof x === 'boolean';
    },
    isNumber = H.isNumber,
    isObject = H.isObject,
    isString = H.isString,
    pick = H.pick,
    Series = H.Series,
    stableSort = H.stableSort,
    color = H.Color,
    eachObject = function (list, func, context) {
        context = context || this;
        H.objectEach(list, function (val, key) {
            func.call(context, val, key, list);
        });
    },
    reduce = H.reduce,
    // @todo find correct name for this function.
    // @todo Similar to reduce, this function is likely redundant
    recursive = function (item, func, context) {
        var next;
        context = context || this;
        next = func.call(context, item);
        if (next !== false) {
            recursive(next, func, context);
        }
    },
    updateRootId = mixinTreeSeries.updateRootId;

/**
 * A treemap displays hierarchical data using nested rectangles. The data can be
 * laid out in varying ways depending on options.
 *
 * @sample highcharts/demo/treemap-large-dataset/ Treemap
 *
 * @extends plotOptions.scatter
 * @excluding marker
 * @product highcharts
 * @optionparent plotOptions.treemap
 */
seriesType('treemap', 'scatter', {

    /**
     * When enabled the user can click on a point which is a parent and
     * zoom in on its children.
     *
     * @type {Boolean}
     * @sample {highcharts} highcharts/plotoptions/treemap-allowdrilltonode/
     *         Enabled
     * @default false
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.allowDrillToNode
     */

    /**
     * When the series contains less points than the crop threshold, all
     * points are drawn, event if the points fall outside the visible plot
     * area at the current zoom. The advantage of drawing all points (including
     * markers and columns), is that animation is performed on updates.
     * On the other hand, when the series contains more points than the
     * crop threshold, the series data is cropped to only contain points
     * that fall within the plot area. The advantage of cropping away invisible
     * points is to increase performance on large series.
     *
     * @type {Number}
     * @default 300
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.cropThreshold
     */

    /**
     * This option decides if the user can interact with the parent nodes
     * or just the leaf nodes. When this option is undefined, it will be
     * true by default. However when allowDrillToNode is true, then it will
     * be false by default.
     *
     * @type {Boolean}
     * @sample {highcharts}
     *         highcharts/plotoptions/treemap-interactbyleaf-false/
     *         False
     * @sample {highcharts}
     *         highcharts/plotoptions/treemap-interactbyleaf-true-and-allowdrilltonode/
     *         InteractByLeaf and allowDrillToNode is true
     * @since 4.1.2
     * @product highcharts
     * @apioption plotOptions.treemap.interactByLeaf
     */

    /**
     * The sort index of the point inside the treemap level.
     *
     * @type {Number}
     * @sample {highcharts} highcharts/plotoptions/treemap-sortindex/
     *         Sort by years
     * @since 4.1.10
     * @product highcharts
     * @apioption plotOptions.treemap.sortIndex
     */

    /**
     * When using automatic point colors pulled from the `options.colors`
     * collection, this option determines whether the chart should receive
     * one color per series or one color per point.
     *
     * @type {Boolean}
     * @see [series colors](#plotOptions.treemap.colors)
     * @default false
     * @since 2.0
     * @apioption plotOptions.treemap.colorByPoint
     */

    /**
     * A series specific or series type specific color set to apply instead
     * of the global [colors](#colors) when [colorByPoint](
     * #plotOptions.treemap.colorByPoint) is true.
     *
     * @type {Array<Color>}
     * @since 3.0
     * @apioption plotOptions.treemap.colors
     */

    /**
     * Whether to display this series type or specific series item in the
     * legend.
     *
     * @type {Boolean}
     * @default false
     * @product highcharts
     */
    showInLegend: false,

    /**
     * @ignore
     */
    marker: false,
    colorByPoint: false,
    /**
     * @extends plotOptions.heatmap.dataLabels
     * @since 4.1.0
     * @product highcharts
     */
    dataLabels: {
        enabled: true,
        defer: false,
        verticalAlign: 'middle',
        formatter: function () { // #2945
            return this.point.name || this.point.id;
        },
        inside: true
    },

    tooltip: {
        headerFormat: '',
        pointFormat: '<b>{point.name}</b>: {point.value}<br/>'
    },

    /**
     * Whether to ignore hidden points when the layout algorithm runs.
     * If `false`, hidden points will leave open spaces.
     *
     * @type {Boolean}
     * @default true
     * @since 5.0.8
     * @product highcharts
     */
    ignoreHiddenPoint: true,

    /**
     * This option decides which algorithm is used for setting position
     * and dimensions of the points. Can be one of `sliceAndDice`, `stripes`,
     *  `squarified` or `strip`.
     *
     * @validvalue ["sliceAndDice", "stripes", "squarified", "strip"]
     * @type {String}
     * @see [How to write your own algorithm](
     * https://www.highcharts.com/docs/chart-and-series-types/treemap).
     *
     * @sample  {highcharts}
     *          highcharts/plotoptions/treemap-layoutalgorithm-sliceanddice/
     *          SliceAndDice by default
     * @sample  {highcharts}
     *          highcharts/plotoptions/treemap-layoutalgorithm-stripes/
     *          Stripes
     * @sample  {highcharts}
     *          highcharts/plotoptions/treemap-layoutalgorithm-squarified/
     *          Squarified
     * @sample  {highcharts}
     *          highcharts/plotoptions/treemap-layoutalgorithm-strip/
     *          Strip
     * @default sliceAndDice
     * @since 4.1.0
     * @product highcharts
     */
    layoutAlgorithm: 'sliceAndDice',

    /**
     * Defines which direction the layout algorithm will start drawing.
     *  Possible values are "vertical" and "horizontal".
     *
     * @validvalue ["vertical", "horizontal"]
     * @type {String}
     * @default vertical
     * @since 4.1.0
     * @product highcharts
     */
    layoutStartingDirection: 'vertical',

    /**
     * Enabling this option will make the treemap alternate the drawing
     * direction between vertical and horizontal. The next levels starting
     * direction will always be the opposite of the previous.
     *
     * @type {Boolean}
     * @sample  {highcharts}
     *          highcharts/plotoptions/treemap-alternatestartingdirection-true/
     *          Enabled
     * @default false
     * @since 4.1.0
     * @product highcharts
     */
    alternateStartingDirection: false,

    /**
     * Used together with the levels and allowDrillToNode options. When
     * set to false the first level visible when drilling is considered
     * to be level one. Otherwise the level will be the same as the tree
     * structure.
     *
     * @type {Boolean}
     * @default true
     * @since 4.1.0
     * @product highcharts
     */
    levelIsConstant: true,

    /**
     * Options for the button appearing when drilling down in a treemap.
     */
    drillUpButton: {

        /**
         * The position of the button.
         */
        position: {

            /**
             * Vertical alignment of the button.
             *
             * @default top
             * @validvalue ["top", "middle", "bottom"]
             * @apioption plotOptions.treemap.drillUpButton.position.verticalAlign
             */

            /**
             * Horizontal alignment of the button.
             * @validvalue ["left", "center", "right"]
             */
            align: 'right',

            /**
             * Horizontal offset of the button.
             * @default -10
             * @type {Number}
             */
            x: -10,

            /**
             * Vertical offset of the button.
             */
            y: 10
        }
    },


    /**
     * Set options on specific levels. Takes precedence over series options,
     * but not point options.
     *
     * @type {Array<Object>}
     * @sample {highcharts} highcharts/plotoptions/treemap-levels/
     *         Styling dataLabels and borders
     * @sample {highcharts} highcharts/demo/treemap-with-levels/
     *         Different layoutAlgorithm
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels
     */

    /**
     * Can set a `borderColor` on all points which lies on the same level.
     *
     * @type {Color}
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.borderColor
     */

    /**
     * Set the dash style of the border of all the point which lies on the
     * level. See <a href"#plotoptions.scatter.dashstyle">
     * plotOptions.scatter.dashStyle</a> for possible options.
     *
     * @type {String}
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.borderDashStyle
     */

    /**
     * Can set the borderWidth on all points which lies on the same level.
     *
     * @type {Number}
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.borderWidth
     */

    /**
     * Can set a color on all points which lies on the same level.
     *
     * @type {Color}
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.color
     */

    /**
     * A configuration object to define how the color of a child varies from the
     * parent's color. The variation is distributed among the children of node.
     * For example when setting brightness, the brightness change will range
     * from the parent's original brightness on the first child, to the amount
     * set in the `to` setting on the last node. This allows a gradient-like
     * color scheme that sets children out from each other while highlighting
     * the grouping on treemaps and sectors on sunburst charts.
     *
     * @type {Object}
     * @sample highcharts/demo/sunburst/ Sunburst with color variation
     * @since 6.0.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.colorVariation
     */

    /**
     * The key of a color variation. Currently supports `brightness` only.
     *
     * @type {String}
     * @validvalue ["brightness"]
     * @since 6.0.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.colorVariation.key
     */

    /**
     * The ending value of a color variation. The last sibling will receive this
     * value.
     *
     * @type {Number}
     * @since 6.0.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.colorVariation.to
     */

    /**
     * Can set the options of dataLabels on each point which lies on the
     * level. [plotOptions.treemap.dataLabels](#plotOptions.treemap.dataLabels)
     * for possible values.
     *
     * @type {Object}
     * @default undefined
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.dataLabels
     */

    /**
     * Can set the layoutAlgorithm option on a specific level.
     *
     * @validvalue ["sliceAndDice", "stripes", "squarified", "strip"]
     * @type {String}
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.layoutAlgorithm
     */

    /**
     * Can set the layoutStartingDirection option on a specific level.
     *
     * @validvalue ["vertical", "horizontal"]
     * @type {String}
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.layoutStartingDirection
     */

    /**
     * Decides which level takes effect from the options set in the levels
     * object.
     *
     * @type {Number}
     * @sample {highcharts} highcharts/plotoptions/treemap-levels/
     *         Styling of both levels
     * @since 4.1.0
     * @product highcharts
     * @apioption plotOptions.treemap.levels.level
     */


    



// Prototype members
}, {
    pointArrayMap: ['value'],
    directTouch: true,
    optionalAxis: 'colorAxis',
    getSymbol: noop,
    parallelArrays: ['x', 'y', 'value', 'colorValue'],
    colorKey: 'colorValue', // Point color option key
    trackerGroups: ['group', 'dataLabelsGroup'],
    /**
     * Creates an object map from parent id to childrens index.
     * @param {Array} data List of points set in options.
     * @param {string} data[].parent Parent id of point.
     * @param {Array} existingIds List of all point ids.
     * @return {Object} Map from parent id to children index in data.
     */
    getListOfParents: function (data, existingIds) {
        var arr = isArray(data) ? data : [],
            ids = isArray(existingIds) ? existingIds : [],
            listOfParents = reduce(arr, function (prev, curr, i) {
                var parent = pick(curr.parent, '');
                if (prev[parent] === undefined) {
                    prev[parent] = [];
                }
                prev[parent].push(i);
                return prev;
            }, {
                '': [] // Root of tree
            });

        // If parent does not exist, hoist parent to root of tree.
        eachObject(listOfParents, function (children, parent, list) {
            if ((parent !== '') && (H.inArray(parent, ids) === -1)) {
                each(children, function (child) {
                    list[''].push(child);
                });
                delete list[parent];
            }
        });
        return listOfParents;
    },
    /**
    * Creates a tree structured object from the series points
    */
    getTree: function () {
        var series = this,
            allIds = map(this.data, function (d) {
                return d.id;
            }),
            parentList = series.getListOfParents(this.data, allIds);

        series.nodeMap = [];
        return series.buildNode('', -1, 0, parentList, null);
    },
    init: function (chart, options) {
        var series = this,
            colorSeriesMixin = H.colorSeriesMixin;

        // If color series logic is loaded, add some properties
        if (H.colorSeriesMixin) {
            this.translateColors = colorSeriesMixin.translateColors;
            this.colorAttribs = colorSeriesMixin.colorAttribs;
            this.axisTypes = colorSeriesMixin.axisTypes;
        }

        Series.prototype.init.call(series, chart, options);
        if (series.options.allowDrillToNode) {
            H.addEvent(series, 'click', series.onClickDrillToNode);
        }
    },
    buildNode: function (id, i, level, list, parent) {
        var series = this,
            children = [],
            point = series.points[i],
            height = 0,
            node,
            child;

        // Actions
        each((list[id] || []), function (i) {
            child = series.buildNode(
                series.points[i].id,
                i,
                (level + 1),
                list,
                id
            );
            height = Math.max(child.height + 1, height);
            children.push(child);
        });
        node = {
            id: id,
            i: i,
            children: children,
            height: height,
            level: level,
            parent: parent,
            visible: false // @todo move this to better location
        };
        series.nodeMap[node.id] = node;
        if (point) {
            point.node = node;
        }
        return node;
    },
    setTreeValues: function (tree) {
        var series = this,
            options = series.options,
            idRoot = series.rootNode,
            mapIdToNode = series.nodeMap,
            nodeRoot = mapIdToNode[idRoot],
            levelIsConstant = (
                isBoolean(options.levelIsConstant) ?
                options.levelIsConstant :
                true
            ),
            childrenTotal = 0,
            children = [],
            val,
            point = series.points[tree.i];

        // First give the children some values
        each(tree.children, function (child) {
            child = series.setTreeValues(child);
            children.push(child);
            if (!child.ignore) {
                childrenTotal += child.val;
            }
        });
        // Sort the children
        stableSort(children, function (a, b) {
            return a.sortIndex - b.sortIndex;
        });
        // Set the values
        val = pick(point && point.options.value, childrenTotal);
        if (point) {
            point.value = val;
        }
        extend(tree, {
            children: children,
            childrenTotal: childrenTotal,
            // Ignore this node if point is not visible
            ignore: !(pick(point && point.visible, true) && (val > 0)),
            isLeaf: tree.visible && !childrenTotal,
            levelDynamic: tree.level - (levelIsConstant ? 0 : nodeRoot.level),
            name: pick(point && point.name, ''),
            sortIndex: pick(point && point.sortIndex, -val),
            val: val
        });
        return tree;
    },
    /**
     * Recursive function which calculates the area for all children of a node.
     * @param {Object} node The node which is parent to the children.
     * @param {Object} area The rectangular area of the parent.
     */
    calculateChildrenAreas: function (parent, area) {
        var series = this,
            options = series.options,
            mapOptionsToLevel = series.mapOptionsToLevel,
            level = mapOptionsToLevel[parent.level + 1],
            algorithm = pick(
                (
                    series[level &&
                    level.layoutAlgorithm] &&
                    level.layoutAlgorithm
                ),
                options.layoutAlgorithm
            ),
            alternate = options.alternateStartingDirection,
            childrenValues = [],
            children;

        // Collect all children which should be included
        children = grep(parent.children, function (n) {
            return !n.ignore;
        });

        if (level && level.layoutStartingDirection) {
            area.direction = level.layoutStartingDirection === 'vertical' ?
                0 :
                1;
        }
        childrenValues = series[algorithm](area, children);
        each(children, function (child, index) {
            var values = childrenValues[index];
            child.values = merge(values, {
                val: child.childrenTotal,
                direction: (alternate ? 1 - area.direction : area.direction)
            });
            child.pointValues = merge(values, {
                x: (values.x / series.axisRatio),
                width: (values.width / series.axisRatio)
            });
            // If node has children, then call method recursively
            if (child.children.length) {
                series.calculateChildrenAreas(child, child.values);
            }
        });
    },
    setPointValues: function () {
        var series = this,
            xAxis = series.xAxis,
            yAxis = series.yAxis;
        each(series.points, function (point) {
            var node = point.node,
                values = node.pointValues,
                x1,
                x2,
                y1,
                y2,
                crispCorr = 0;

            

            // Points which is ignored, have no values.
            if (values && node.visible) {
                x1 = Math.round(
                    xAxis.translate(values.x, 0, 0, 0, 1)
                ) - crispCorr;
                x2 = Math.round(
                    xAxis.translate(values.x + values.width, 0, 0, 0, 1)
                ) - crispCorr;
                y1 = Math.round(
                    yAxis.translate(values.y, 0, 0, 0, 1)
                ) - crispCorr;
                y2 = Math.round(
                    yAxis.translate(values.y + values.height, 0, 0, 0, 1)
                ) - crispCorr;
                // Set point values
                point.shapeType = 'rect';
                point.shapeArgs = {
                    x: Math.min(x1, x2),
                    y: Math.min(y1, y2),
                    width: Math.abs(x2 - x1),
                    height: Math.abs(y2 - y1)
                };
                point.plotX = point.shapeArgs.x + (point.shapeArgs.width / 2);
                point.plotY = point.shapeArgs.y + (point.shapeArgs.height / 2);
            } else {
                // Reset visibility
                delete point.plotX;
                delete point.plotY;
            }
        });
    },

    /**
     * Set the node's color recursively, from the parent down.
     */
    setColorRecursive: function (
        node,
        parentColor,
        colorIndex,
        index,
        siblings
    ) {
        var series = this,
            chart = series && series.chart,
            colors = chart && chart.options && chart.options.colors,
            colorInfo,
            point;

        if (node) {
            colorInfo = getColor(node, {
                colors: colors,
                index: index,
                mapOptionsToLevel: series.mapOptionsToLevel,
                parentColor: parentColor,
                parentColorIndex: colorIndex,
                series: series,
                siblings: siblings
            });

            point = series.points[node.i];
            if (point) {
                point.color = colorInfo.color;
                point.colorIndex = colorInfo.colorIndex;
            }

            // Do it all again with the children
            each(node.children || [], function (child, i) {
                series.setColorRecursive(
                    child,
                    colorInfo.color,
                    colorInfo.colorIndex,
                    i,
                    node.children.length
                );
            });
        }
    },
    algorithmGroup: function (h, w, d, p) {
        this.height = h;
        this.width = w;
        this.plot = p;
        this.direction = d;
        this.startDirection = d;
        this.total = 0;
        this.nW = 0;
        this.lW = 0;
        this.nH = 0;
        this.lH = 0;
        this.elArr = [];
        this.lP = {
            total: 0,
            lH: 0,
            nH: 0,
            lW: 0,
            nW: 0,
            nR: 0,
            lR: 0,
            aspectRatio: function (w, h) {
                return Math.max((w / h), (h / w));
            }
        };
        this.addElement = function (el) {
            this.lP.total = this.elArr[this.elArr.length - 1];
            this.total = this.total + el;
            if (this.direction === 0) {
                // Calculate last point old aspect ratio
                this.lW = this.nW;
                this.lP.lH = this.lP.total / this.lW;
                this.lP.lR = this.lP.aspectRatio(this.lW, this.lP.lH);
                // Calculate last point new aspect ratio
                this.nW = this.total / this.height;
                this.lP.nH = this.lP.total / this.nW;
                this.lP.nR = this.lP.aspectRatio(this.nW, this.lP.nH);
            } else {
                // Calculate last point old aspect ratio
                this.lH = this.nH;
                this.lP.lW = this.lP.total / this.lH;
                this.lP.lR = this.lP.aspectRatio(this.lP.lW, this.lH);
                // Calculate last point new aspect ratio
                this.nH = this.total / this.width;
                this.lP.nW = this.lP.total / this.nH;
                this.lP.nR = this.lP.aspectRatio(this.lP.nW, this.nH);
            }
            this.elArr.push(el);
        };
        this.reset = function () {
            this.nW = 0;
            this.lW = 0;
            this.elArr = [];
            this.total = 0;
        };
    },
    algorithmCalcPoints: function (directionChange, last, group, childrenArea) {
        var pX,
            pY,
            pW,
            pH,
            gW = group.lW,
            gH = group.lH,
            plot = group.plot,
            keep,
            i = 0,
            end = group.elArr.length - 1;
        if (last) {
            gW = group.nW;
            gH = group.nH;
        } else {
            keep = group.elArr[group.elArr.length - 1];
        }
        each(group.elArr, function (p) {
            if (last || (i < end)) {
                if (group.direction === 0) {
                    pX = plot.x;
                    pY = plot.y;
                    pW = gW;
                    pH = p / pW;
                } else {
                    pX = plot.x;
                    pY = plot.y;
                    pH = gH;
                    pW = p / pH;
                }
                childrenArea.push({
                    x: pX,
                    y: pY,
                    width: pW,
                    height: pH
                });
                if (group.direction === 0) {
                    plot.y = plot.y + pH;
                } else {
                    plot.x = plot.x + pW;
                }
            }
            i = i + 1;
        });
        // Reset variables
        group.reset();
        if (group.direction === 0) {
            group.width = group.width - gW;
        } else {
            group.height = group.height - gH;
        }
        plot.y = plot.parent.y + (plot.parent.height - group.height);
        plot.x = plot.parent.x + (plot.parent.width - group.width);
        if (directionChange) {
            group.direction = 1 - group.direction;
        }
        // If not last, then add uncalculated element
        if (!last) {
            group.addElement(keep);
        }
    },
    algorithmLowAspectRatio: function (directionChange, parent, children) {
        var childrenArea = [],
            series = this,
            pTot,
            plot = {
                x: parent.x,
                y: parent.y,
                parent: parent
            },
            direction = parent.direction,
            i = 0,
            end = children.length - 1,
            group = new this.algorithmGroup( // eslint-disable-line new-cap
                parent.height,
                parent.width,
                direction,
                plot
            );
        // Loop through and calculate all areas
        each(children, function (child) {
            pTot = (parent.width * parent.height) * (child.val / parent.val);
            group.addElement(pTot);
            if (group.lP.nR > group.lP.lR) {
                series.algorithmCalcPoints(
                    directionChange,
                    false,
                    group,
                    childrenArea,
                    plot
                );
            }
            // If last child, then calculate all remaining areas
            if (i === end) {
                series.algorithmCalcPoints(
                    directionChange,
                    true,
                    group,
                    childrenArea,
                    plot
                );
            }
            i = i + 1;
        });
        return childrenArea;
    },
    algorithmFill: function (directionChange, parent, children) {
        var childrenArea = [],
            pTot,
            direction = parent.direction,
            x = parent.x,
            y = parent.y,
            width = parent.width,
            height = parent.height,
            pX,
            pY,
            pW,
            pH;
        each(children, function (child) {
            pTot = (parent.width * parent.height) * (child.val / parent.val);
            pX = x;
            pY = y;
            if (direction === 0) {
                pH = height;
                pW = pTot / pH;
                width = width - pW;
                x = x + pW;
            } else {
                pW = width;
                pH = pTot / pW;
                height = height - pH;
                y = y + pH;
            }
            childrenArea.push({
                x: pX,
                y: pY,
                width: pW,
                height: pH
            });
            if (directionChange) {
                direction = 1 - direction;
            }
        });
        return childrenArea;
    },
    strip: function (parent, children) {
        return this.algorithmLowAspectRatio(false, parent, children);
    },
    squarified: function (parent, children) {
        return this.algorithmLowAspectRatio(true, parent, children);
    },
    sliceAndDice: function (parent, children) {
        return this.algorithmFill(true, parent, children);
    },
    stripes: function (parent, children) {
        return this.algorithmFill(false, parent, children);
    },
    translate: function () {
        var series = this,
            options = series.options,
            // NOTE: updateRootId modifies series.
            rootId = updateRootId(series),
            rootNode,
            pointValues,
            seriesArea,
            tree,
            val;

        // Call prototype function
        Series.prototype.translate.call(series);

        // @todo Only if series.isDirtyData is true
        tree = series.tree = series.getTree();
        rootNode = series.nodeMap[rootId];
        series.mapOptionsToLevel = getLevelOptions({
            from: rootNode.level + 1,
            levels: options.levels,
            to: tree.height,
            defaults: {
                levelIsConstant: series.options.levelIsConstant,
                colorByPoint: options.colorByPoint
            }
        });
        if (
            rootId !== '' &&
            (!rootNode || !rootNode.children.length)
        ) {
            series.drillToNode('', false);
            rootId = series.rootNode;
            rootNode = series.nodeMap[rootId];
        }
        // Parents of the root node is by default visible
        recursive(series.nodeMap[series.rootNode], function (node) {
            var next = false,
                p = node.parent;
            node.visible = true;
            if (p || p === '') {
                next = series.nodeMap[p];
            }
            return next;
        });
        // Children of the root node is by default visible
        recursive(
            series.nodeMap[series.rootNode].children,
            function (children) {
                var next = false;
                each(children, function (child) {
                    child.visible = true;
                    if (child.children.length) {
                        next = (next || []).concat(child.children);
                    }
                });
                return next;
            }
        );
        series.setTreeValues(tree);

        // Calculate plotting values.
        series.axisRatio = (series.xAxis.len / series.yAxis.len);
        series.nodeMap[''].pointValues = pointValues =
            { x: 0, y: 0, width: 100, height: 100 };
        series.nodeMap[''].values = seriesArea = merge(pointValues, {
            width: (pointValues.width * series.axisRatio),
            direction: (options.layoutStartingDirection === 'vertical' ? 0 : 1),
            val: tree.val
        });
        series.calculateChildrenAreas(tree, seriesArea);

        // Logic for point colors
        if (series.colorAxis) {
            series.translateColors();
        } else if (!options.colorByPoint) {
            series.setColorRecursive(series.tree);
        }

        // Update axis extremes according to the root node.
        if (options.allowDrillToNode) {
            val = rootNode.pointValues;
            series.xAxis.setExtremes(val.x, val.x + val.width, false);
            series.yAxis.setExtremes(val.y, val.y + val.height, false);
            series.xAxis.setScale();
            series.yAxis.setScale();
        }

        // Assign values to points.
        series.setPointValues();
    },
    /**
     * Extend drawDataLabels with logic to handle custom options related to the
     * treemap series:
     * - Points which is not a leaf node, has dataLabels disabled by default.
     * - Options set on series.levels is merged in.
     * - Width of the dataLabel is set to match the width of the point shape.
     */
    drawDataLabels: function () {
        var series = this,
            mapOptionsToLevel = series.mapOptionsToLevel,
            points = grep(series.points, function (n) {
                return n.node.visible;
            }),
            options,
            level;
        each(points, function (point) {
            level = mapOptionsToLevel[point.node.level];
            // Set options to new object to avoid problems with scope
            options = { style: {} };

            // If not a leaf, then label should be disabled as default
            if (!point.node.isLeaf) {
                options.enabled = false;
            }

            // If options for level exists, include them as well
            if (level && level.dataLabels) {
                options = merge(options, level.dataLabels);
                series._hasPointLabels = true;
            }

            // Set dataLabel width to the width of the point shape.
            if (point.shapeArgs) {
                options.style.width = point.shapeArgs.width;
                if (point.dataLabel) {
                    point.dataLabel.css({
                        width: point.shapeArgs.width + 'px'
                    });
                }
            }

            // Merge custom options with point options
            point.dlOptions = merge(options, point.options.dataLabels);
        });
        Series.prototype.drawDataLabels.call(this);
    },

    /**
     * Over the alignment method by setting z index
     */
    alignDataLabel: function (point) {
        seriesTypes.column.prototype.alignDataLabel.apply(this, arguments);
        if (point.dataLabel) {
            // point.node.zIndex could be undefined (#6956)
            point.dataLabel.attr({ zIndex: (point.node.zIndex || 0) + 1 });
        }
    },

    

    /**
    * Extending ColumnSeries drawPoints
    */
    drawPoints: function () {
        var series = this,
            points = grep(series.points, function (n) {
                return n.node.visible;
            });

        each(points, function (point) {
            var groupKey = 'level-group-' + point.node.levelDynamic;
            if (!series[groupKey]) {
                series[groupKey] = series.chart.renderer.g(groupKey)
                    .attr({
                        // @todo Set the zIndex based upon the number of levels,
                        // instead of using 1000
                        zIndex: 1000 - point.node.levelDynamic
                    })
                    .add(series.group);
            }
            point.group = series[groupKey];

        });
        // Call standard drawPoints
        seriesTypes.column.prototype.drawPoints.call(this);

        
        // In styled mode apply point.color. Use CSS, otherwise the fill
        // used in the style sheet will take precedence over the fill
        // attribute.
        if (this.colorAttribs) { // Heatmap is loaded
            each(this.points, function (point) {
                if (point.graphic) {
                    point.graphic.css(this.colorAttribs(point));
                }
            }, this);
        }
        

        // If drillToNode is allowed, set a point cursor on clickables & add
        // drillId to point
        if (series.options.allowDrillToNode) {
            each(points, function (point) {
                if (point.graphic) {
                    point.drillId = series.options.interactByLeaf ?
                        series.drillToByLeaf(point) :
                        series.drillToByGroup(point);
                }
            });
        }
    },
    /**
    * Add drilling on the suitable points
    */
    onClickDrillToNode: function (event) {
        var series = this,
            point = event.point,
            drillId = point && point.drillId;
        // If a drill id is returned, add click event and cursor.
        if (isString(drillId)) {
            point.setState(''); // Remove hover
            series.drillToNode(drillId);
        }
    },
    /**
    * Finds the drill id for a parent node.
    * Returns false if point should not have a click event
    * @param {Object} point
    * @return {String|Boolean} Drill to id or false when point should not have a
    *         click event
    */
    drillToByGroup: function (point) {
        var series = this,
            drillId = false;
        if (
            (point.node.level - series.nodeMap[series.rootNode].level) === 1 &&
            !point.node.isLeaf
        ) {
            drillId = point.id;
        }
        return drillId;
    },
    /**
    * Finds the drill id for a leaf node.
    * Returns false if point should not have a click event
    * @param {Object} point
    * @return {String|Boolean} Drill to id or false when point should not have a
    *         click event
    */
    drillToByLeaf: function (point) {
        var series = this,
            drillId = false,
            nodeParent;
        if ((point.node.parent !== series.rootNode) && (point.node.isLeaf)) {
            nodeParent = point.node;
            while (!drillId) {
                nodeParent = series.nodeMap[nodeParent.parent];
                if (nodeParent.parent === series.rootNode) {
                    drillId = nodeParent.id;
                }
            }
        }
        return drillId;
    },
    drillUp: function () {
        var series = this,
            node = series.nodeMap[series.rootNode];
        if (node && isString(node.parent)) {
            series.drillToNode(node.parent);
        }
    },
    drillToNode: function (id, redraw) {
        var series = this,
            nodeMap = series.nodeMap,
            node = nodeMap[id];
        series.idPreviousRoot = series.rootNode;
        series.rootNode = id;
        if (id === '') {
            series.drillUpButton = series.drillUpButton.destroy();
        } else {
            series.showDrillUpButton((node && node.name || id));
        }
        this.isDirty = true; // Force redraw
        if (pick(redraw, true)) {
            this.chart.redraw();
        }
    },
    showDrillUpButton: function (name) {
        var series = this,
            backText = (name || '< Back'),
            buttonOptions = series.options.drillUpButton,
            attr,
            states;

        if (buttonOptions.text) {
            backText = buttonOptions.text;
        }
        if (!this.drillUpButton) {
            attr = buttonOptions.theme;
            states = attr && attr.states;

            this.drillUpButton = this.chart.renderer.button(
                backText,
                null,
                null,
                function () {
                    series.drillUp();
                },
                attr,
                states && states.hover,
                states && states.select
            )
            .addClass('highcharts-drillup-button')
            .attr({
                align: buttonOptions.position.align,
                zIndex: 7
            })
            .add()
            .align(
                buttonOptions.position,
                false,
                buttonOptions.relativeTo || 'plotBox'
            );
        } else {
            this.drillUpButton.placed = false;
            this.drillUpButton.attr({
                text: backText
            })
            .align();
        }
    },
    buildKDTree: noop,
    drawLegendSymbol: H.LegendSymbolMixin.drawRectangle,
    getExtremes: function () {
        // Get the extremes from the value data
        Series.prototype.getExtremes.call(this, this.colorValueData);
        this.valueMin = this.dataMin;
        this.valueMax = this.dataMax;

        // Get the extremes from the y data
        Series.prototype.getExtremes.call(this);
    },
    getExtremesFromAll: true,
    bindAxes: function () {
        var treeAxis = {
            endOnTick: false,
            gridLineWidth: 0,
            lineWidth: 0,
            min: 0,
            dataMin: 0,
            minPadding: 0,
            max: 100,
            dataMax: 100,
            maxPadding: 0,
            startOnTick: false,
            title: null,
            tickPositions: []
        };
        Series.prototype.bindAxes.call(this);
        H.extend(this.yAxis.options, treeAxis);
        H.extend(this.xAxis.options, treeAxis);
    },
    utils: {
        recursive: recursive,
        reduce: reduce
    }

// Point class
}, {
    getClassName: function () {
        var className = H.Point.prototype.getClassName.call(this),
            series = this.series,
            options = series.options;

        // Above the current level
        if (this.node.level <= series.nodeMap[series.rootNode].level) {
            className += ' highcharts-above-level';

        } else if (
            !this.node.isLeaf &&
            !pick(options.interactByLeaf, !options.allowDrillToNode)
        ) {
            className += ' highcharts-internal-node-interactive';

        } else if (!this.node.isLeaf) {
            className += ' highcharts-internal-node';
        }
        return className;
    },

    /**
     * A tree point is valid if it has han id too, assume it may be a parent
     * item.
     */
    isValid: function () {
        return this.id || isNumber(this.value);
    },
    setState: function (state) {
        H.Point.prototype.setState.call(this, state);

        // Graphic does not exist when point is not visible.
        if (this.graphic) {
            this.graphic.attr({
                zIndex: state === 'hover' ? 1 : 0
            });
        }
    },
    setVisible: seriesTypes.pie.prototype.pointClass.prototype.setVisible
});


/**
 * A `treemap` series. If the [type](#series.treemap.type) option is
 * not specified, it is inherited from [chart.type](#chart.type).
 *
 * @type {Object}
 * @extends series,plotOptions.treemap
 * @excluding dataParser,dataURL,stack
 * @product highcharts
 * @apioption series.treemap
 */

/**
 * An array of data points for the series. For the `treemap` series
 * type, points can be given in the following ways:
 *
 * 1.  An array of numerical values. In this case, the numerical values
 * will be interpreted as `value` options. Example:
 *
 *  ```js
 *  data: [0, 5, 3, 5]
 *  ```
 *
 * 2.  An array of objects with named values. The following snippet shows only a
 * few settings, see the complete options set below. If the total number of data
 * points exceeds the series' [turboThreshold](#series.treemap.turboThreshold),
 * this option is not available.
 *
 *  ```js
 *     data: [{
 *         value: 9,
 *         name: "Point2",
 *         color: "#00FF00"
 *     }, {
 *         value: 6,
 *         name: "Point1",
 *         color: "#FF00FF"
 *     }]
 *  ```
 *
 * @type {Array<Object|Number>}
 * @extends series.heatmap.data
 * @excluding x,y
 * @sample {highcharts} highcharts/chart/reflow-true/
 *         Numerical values
 * @sample {highcharts} highcharts/series/data-array-of-arrays/
 *         Arrays of numeric x and y
 * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/
 *         Arrays of datetime x and y
 * @sample {highcharts} highcharts/series/data-array-of-name-value/
 *         Arrays of point.name and y
 * @sample {highcharts} highcharts/series/data-array-of-objects/
 *         Config objects
 * @product highcharts
 * @apioption series.treemap.data
 */

/**
 * The value of the point, resulting in a relative area of the point
 * in the treemap.
 *
 * @type {Number}
 * @product highcharts
 * @apioption series.treemap.data.value
 */

/**
 * Serves a purpose only if a `colorAxis` object is defined in the chart
 * options. This value will decide which color the point gets from the
 * scale of the colorAxis.
 *
 * @type {Number}
 * @default undefined
 * @since 4.1.0
 * @product highcharts
 * @apioption series.treemap.data.colorValue
 */

/**
 * Only for treemap. Use this option to build a tree structure. The
 * value should be the id of the point which is the parent. If no points
 * has a matching id, or this option is undefined, then the parent will
 * be set to the root.
 *
 * @type {String}
 * @sample {highcharts} highcharts/point/parent/ Point parent
 * @sample {highcharts} highcharts/demo/treemap-with-levels/ Example where parent id is not matching
 * @default undefined
 * @since 4.1.0
 * @product highcharts
 * @apioption series.treemap.data.parent
 */
